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Refrigeration and Heating Constant Temperature Control System for Reactors

Reactor heating and cooling temperature control equipment is used in organic synthesis, biology, pharmaceuticals, food and other fields. The equipment directly affects the temperature required for the reactor. It can accurately control the temperature range within ±0.1°C, and can rapidly heat up and cool down. Rationally use heat energy, choose better process operating conditions, strengthen insulation measures, improve heat transfer efficiency, reduce heat loss to a minimum, and fully utilize waste heat or heat energy generated after reaction.

Reactor temperature control system is suitable for high-purity metals, rare substance purification, laboratory environment simulation, magnetron sputtering, vacuum coating and other industries. The reaction kettle temperature control system is a low-temperature liquid circulation equipment that adopts mechanical refrigeration, and can provide the functions of low-temperature liquid and low-temperature water bath. Combined with rotary evaporator, vacuum freeze-drying oven, circulating water multi-purpose vacuum pump, magnetic stirrer and other instruments, it can carry out multi-functional low-temperature chemical reaction operations and drug storage.

Advantages of using reactor heating and cooling temperature control equipment

  1. The temperature control system of the reactor can be used in conjunction with a variety of instruments, with large cooling capacity, fast cooling speed and low energy consumption, which greatly improves work efficiency;
  2. The flow rate of the temperature control system of the reactor can be adjusted or customized. According to the requirements of users, the reasonable matching between low temperature and cooling capacity, low temperature and container capacity can meet the actual needs of different users;
  3. Reaction equipment that can complete processes such as sulfonation, nitration, hydrogenation, alkylation, polymerization, condensation, and many other processes of organic dyes and intermediates;
  4. Replace the cumbersome manual operation in intervals with production automation and continuity. If program control is adopted, it can not only ensure stable production, improve product quality, increase revenue, reduce physical labor, but also eliminate environmental pollution;
  5. The temperature control system of the reactor adopts high-intelligence PLC and PC-level microcomputer control system, which can be operated remotely, with automatic loading and unloading, timing switch and fault cause analysis, real-time recording and display of data, and drawing of curves, and automatic saving of data . A variety of modes are available for selection, flexible use and self-adaptation.
  6. The active control mode can be based on test requirements or parameter settings. The load control mode can be controlled based on the material temperature of the reactor. When the material temperature changes, the temperature of the chiller changes accordingly to realize the temperature control of the load.

Reactor heating and cooling temperature control equipment can be used in the following reactions

  1. It can provide ultra-low temperature and constant temperature circulating fluid for equipment such as double-layer glass reactors, stainless steel reactors, and rotary evaporators.
  2. Provide a constant temperature experimental place for glass containers and glass reaction devices.
  3. Provide constant temperature experimental field source for petrochemical, biopharmaceutical, food and other industries.
  4. It can perform cryogenic cooling and temperature control on the power supply and light source of the electron microscope.
  5. It can perform low-temperature cooling and temperature control on the heating parts of industrial mechanical devices.

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